Method determining whether to seek operator assistance for incompatible virtual environment migration

ABSTRACT

An incompatibility problem during a virtual environment migration from a first host to a second host can be addressed by changing a configuration of the virtual environment and/or by migrating the virtual environment to a host other than the second host. A migration advisor module is configured to take such action automatically upon detection of the incompatibility problem. Alternatively, the migration advisor module may take such action with assistance and/or input from an operator. The migration advisor module can change the configuration of the virtual environment by removing unnecessary components of the virtual environment and causing the reconfigured virtual environment to be migrated to the second host. Alternatively, the migration advisor module can cause the virtual environment to be migrated to a third host with sufficient physical system resources to meet the requirements of the virtual environment.

TECHNICAL FIELD

The present disclosure relates generally to a method and system forvirtual environment migration, and more particularly, to a method andsystem for providing solutions to incompatibility problems duringvirtual environment migration.

BACKGROUND

A virtual environment is a software implementation of a computer-basedenvironment that operates like a real computer-based environment. Oneexample of a virtual environment is a virtual machine, which is asoftware implementation of a computer that operates like a realcomputer. Emerging virtualization technologies offer the possibility ofmigrating a virtual environment from one physical system to anotherphysical system without stopping or suspending operation of the virtualenvironment.

This migration is sometimes called “dynamic migration.” The terms“migrate” and “migration” are used interchangeably herein to refer tomoving and relocating an item from one location to another location.Migration may occur in an automated fashion or via operator assistance.For example, automated migration may be used in load balancing and/orworkload distribution scenarios.

Physical systems have configurations that may or may not be compatiblewith the requirements of certain virtual environments. For example, avirtual environment may require a different configuration ofinput/output (“I/O”) devices than are available on a target physicalsystem. The virtual environment also may require more or differentcentral processing unit (“CPU”) resources, memory, and/or processorsthan are available on the target physical system. For example, aphysical system that only has 1 CPU is not compatible with a virtualenvironment that requires 3 CPU.

Traditionally, a migration could not be completed if there was anyinconsistency between physical system resources and virtual environmentrequirements. The migration was stopped upon detection of such aninconsistency, leaving an operator to determine the reason why themigration stopped and whether and how the migration could be completed.For example, the operator could modify certain features of the virtualenvironment or physical system to allow the migration to be completed.Once the operator made this modification, the operator had to repeat thewhole migration process again. This process is cumbersome andtime-consuming.

Therefore, a need exists in the art for an improved method and systemfor virtual environment migration. In addition, a need exists in the artfor such a system and method to provide efficient, user-friendlysolutions to problems of incompatibility during virtual environmentmigration.

SUMMARY

The invention provides a method and system for virtual environmentmigration. In particular, the invention provides a method and system forproviding solutions to incompatibility problems during virtualenvironment migration. A migration advisor module is coupled to multiplevirtual environment hosts via a network.

The migration advisor module is configured to receive informationregarding a request to migrate a virtual environment (“VE”) from a firsthost to a second host. The migration advisor module can determinewhether the VE is compatible with the second host by comparing availablephysical system resources of the second host with physical systemrequirements of the VE. The migration advisor module may determine thatthe VE is incompatible with the second host if the available physicalsystem resources of the second host do not meet at least one of thephysical system requirements of the VE.

The migration advisor module can determine whether to seek operatorassistance to address the incompatibility. For example, the migrationadvisor module can make this determination based on one or more rules.If the migration advisor module determines not to seek operatorassistance, the migration advisor module can automatically address theincompatibility based on one or more rules. For example, the migrationadvisor module can address the incompatibility by automatically causingthe VE to be migrated to a third host that is not the second host,and/or by automatically reconfiguring the VE for successful migration tothe second host. The migration advisor module may reconfigure the VE byremoving at least one unnecessary component from the VE.

If the migration advisor module determines to seek operator assistance,the migration advisor module can output at least one request to anoperator for an instruction on how to address the incompatibility. Forexample, the request(s) can be displayed in a browser application,software application window, and/or software “wizard” screen. Themigration advisor module can read at least one instruction provided bythe operator in response to the request(s) and address theincompatibility based on the instruction(s). For example, the migrationadvisor module can address the incompatibility by causing the VE to bemigrated to a third host that is not the second host, and/or byreconfiguring the VE for successful migration to the second host. Thesesteps may be performed with assistance and/or input from the operator.

These and other aspects, features and embodiments of the invention willbecome apparent to a person of ordinary skill in the art uponconsideration of the following detailed description of illustratedembodiments exemplifying the best mode for carrying out the invention aspresently perceived.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram depicting an exemplary operating environmentfor implementation of certain exemplary embodiments.

FIG. 2 is a block diagram illustrating a general component architecturefor a network device constructed in accordance with certain exemplaryembodiments.

FIG. 3 is a flow chart depicting a method for dynamic virtualenvironment migration, in accordance with certain exemplary embodiments.

FIG. 4, comprising FIGS. 4A and 4B, is a flow chart depicting a methodfor correcting migration incompatibility, in accordance with certainexemplary embodiments.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

The invention is directed to a method and system for virtual environmentmigration. In particular, the invention provides a method and system forproviding solutions to incompatibility problems during virtualenvironment migration. For example, such migration may be dynamicvirtual environment migration.

Turning now to the drawings, in which like numerals indicate likeelements throughout the figures, exemplary embodiments of the inventionare described in detail.

FIG. 1 is a block diagram depicting an exemplary operating environment100 for implementation of certain exemplary embodiments of theinvention. Network devices 105, 107, and 110-112 are interconnected viaa network 104. The network 104 includes a wired or wirelesstelecommunication means by which network devices 105, 107, and 110-112can exchange data. For example, the network 104 can include a local areanetwork (“LAN”), a wide area network (“WAN”), an intranet, an Internet,or any combination thereof. The terms “data” and “information” are usedinterchangeably herein to refer to text, images, audio, video, or anyother form of information that can exist in a computer-basedenvironment, whether readable by a computer or a person.

Each network device 105, 107, and 110-112 can be any device capable oftransmitting and receiving data over the network 104. For example, eachnetwork device 105, 107, and 110-112 can be a server, a dedicatedstorage device, a desktop computer, a laptop computer, a wirelessnetwork device, such as a personal digital assistant (PDA), a handheldcomputer, or any other wired or wireless, processor-driven device.

FIG. 2 is a block diagram illustrating a general component architecturefor the network device 107, in accordance with certain exemplaryembodiments. The network device 107 includes a general-purpose computingdevice in the form of a conventional computer 220. Generally, thecomputer 220 includes a processing unit 221, a system memory 222, and asystem bus 223 that couples various system components, including thesystem memory 222, to the processing unit 221. The system bus 223 caninclude any of several types of bus structures, including a memory busor memory controller, a peripheral bus, or a local bus, using any of avariety of bus architectures. The system memory 222 includes a read-onlymemory (“ROM”) 224 and a random access memory (“RAM”) 225. A basicinput/output system (BIOS) 226 containing the basic routines that helpto transfer information between elements within the computer 220, suchas during start-up, is stored in the ROM 224.

The computer 220 also includes a hard disk drive 227 for reading fromand writing to a hard disk (not shown), a magnetic disk drive 228 forreading from or writing to a removable magnetic disk 229 such as afloppy disk, and an optical disk drive 230 for reading from or writingto a removable optical disk 231 such as a CD-ROM, compactdisk-read/write (CD/RW), DVD, or other optical media. The hard diskdrive 227, magnetic disk drive 228, and optical disk drive 230 areconnected to the system bus 223 by a hard disk drive interface 232, amagnetic disk drive interface 233, and an optical disk drive interface234, respectively. Although the exemplary network device 107 employs aROM 224, a RAM 225, a hard disk drive 227, a removable magnetic disk229, and a removable optical disk 231, it should be appreciated by aperson of ordinary skill in the art having the benefit of the presentdisclosure that other types of computer readable media also can be usedin the exemplary network device 107. For example, the computer readablemedia can include any apparatus that can contain, store, communicate,propagate, or transport data for use by or in connection with one ormore components of the computer 220, including any electronic, magnetic,optical, electromagnetic, infrared, or semiconductor system (orapparatus or device) or propagation medium, such as magnetic cassettes,flash memory cards, digital video disks, Bernoulli cartridges, and thelike. The drives and their associated computer readable media canprovide nonvolatile storage of computer-executable instructions, datastructures, program modules, and other data for the computer 220.

A number of modules can be stored on the ROM 224, RAM 225, hard diskdrive 227, magnetic disk 229, or optical disk 231, including anoperating system 235 and various application modules 115, 237-238.Application modules 115, 237-238 can include routines, sub-routines,programs, objects, components, data structures, etc., which performparticular tasks or implement particular abstract data types.Application module 115, referred to herein as a “migration advisormodule” 115, is discussed in more detail below, with reference to FIGS.3-4.

A user can enter commands and information to the computer 220 throughinput devices, such as a keyboard 240 and a pointing device 242. Thepointing device 242 can include a mouse, a trackball, an electronic penthat can be used in conjunction with an electronic tablet, or any otherinput device known to a person of ordinary skill in the art, such as amicrophone, joystick, game pad, satellite dish, scanner, or the like.These and other input devices are often connected to the processing unit222 through a serial port interface 246 that is coupled to the systembus 223, but can be connected by other interfaces, such as a parallelport, game port, a universal serial bus (USB), or the like. A displaydevice 247, such as a monitor, also can be connected to system bus 223via an interface, such as a video adapter 248. In addition to thedisplay device 247, the computer 220 can include other peripheral outputdevices, such as speakers (not shown) and a printer 116.

The computer 220 is configured to operate in a networked environmentusing logical connections to one or more remote computers 249, such asnetwork devices 105 and 110-112. The remote computer 249 can be anynetwork device, such as a personal computer, a server, a client, arouter, a network PC, a peer device, or other device. While the remotecomputer 249 typically includes many or all of the elements describedabove relative to the computer 220, only a memory storage device 250 hasbeen illustrated in FIG. 2 for simplicity. The logical connectionsdepicted in FIG. 2 include a LAN 104A and a WAN 104B. Such networkingenvironments are commonplace in offices, enterprise-wide computernetworks, intranets, and the Internet.

When used in a LAN networking environment, the computer 220 is oftenconnected to the LAN 104A through a network interface or adapter 253.When used in a WAN networking environment, the computer 220 typicallyincludes a modem 254 or other means for establishing communications overthe WAN 104B, such as the Internet. The modem 254, which can be internalor external, is connected to system bus 223 via a serial port interface246. In a networked environment, program modules depicted relative tocomputer 220, or portions thereof, can be stored in the remote memorystorage device 250.

It will be appreciated that the network connections shown are exemplaryand other means of establishing a communications link between thecomputers can be used. Moreover, those skilled in the art willappreciate that the network device 107 illustrated in FIG. 2 can haveany of several other suitable computer system configurations. Forexample, the network device 107 may not include certain components, inalternative exemplary embodiments. In certain exemplary embodiments,each of the network devices 105 and 110-112 can include a structuresimilar to that described previously in connection with the networkdevice 107.

The operating environment 100 and network devices 105, 107, and 110-112are described hereinafter with reference to the methods illustrated inFIGS. 3-4.

FIG. 3 is a flow chart depicting a method 300 for dynamic virtualenvironment migration, in accordance with certain exemplary embodiments.The exemplary method 300 is illustrative and, in alternative embodimentsof the invention, certain steps can be performed in a different order,in parallel with one another, or omitted entirely, and/or certainadditional steps can be performed without departing from the scope andspirit of the invention. The method 300 is described hereinafter withreference to FIGS. 1-3.

In step 305, the migration advisor module 115 receives a request tomigrate a virtual environment 108 from the network device 105 (“Host A”)to the network device 110 (“Host B”). In certain exemplary embodiments,the migration advisor module 115 can receive the request via the network104 (from another device) or via one or more input devices, such as thepointing device 242 and/or keyboard 240. For example, the migrationadvisor module 115 can receive the request via a browser application or“wizard” displayed to an operator of one or more of the network devices105, 107, and 110-112. By way of example only, the migration advisormodule 115 can receive the request in response to a “drag and drop”operation in which the operator selects an icon or other item associatedwith the virtual environment 108 in a first window or folder associatedwith Host A 105, drags the icon or other item to a second window orfolder associated with Host B, and drops the icon or other item in thesecond window or folder.

In certain exemplary embodiments, some or all of the functionality ofthe migration advisor module 115 may be implemented as a “plug-in” to anexisting virtual environment manager, such as the VMware brand VirtualCenter. For example, the migration advisor module 115 can be configuredto interact with one or more browser applications or wizards provided bythe existing virtual environment manager. Alternatively, the migrationadvisor module 115 may be implemented as a stand-alone softwareapplication. Although FIGS. 1-2 illustrate the migration advisor module115 as a component of a network device 107 separate from the networkdevices 105 and 110-112, a person of ordinary skill in the art havingthe benefit of the present disclosure will recognize that the migrationadvisor 115 may be a component of one of the network devices 105 and110-112, in certain alternative exemplary embodiments.

The virtual environment 108 operates in a virtual layer 109 of Host A105. The virtual layer 109 is a software layer providing virtualizationfor the virtual environment 108. The virtual environment 108 includesmultiple components A-C. Each component A-C is a piece of software thatrequires certain physical system resources and/or a certain physicalsystem configuration.

In step 310, the migration advisor module 115 identifies physical systemrequirements of the virtual environment 108, including physical systemrequirements of each component A-C of the virtual environment 108. Forexample, each component A-C may require a certain configuration of I/Odevices and a certain amount and/or configuration of CPU resources,memory, network interface, disk drive, and/or processors. In certainexemplary embodiments, the migration advisor module 115 includes one ormore data collector components (not shown) configured to collectinformation related to the requirements of each component A-C from adata repository, such as a database (not shown), associated orincorporated with one or more of the network devices 105, 107, and110-112.

In step 315, the migration advisor module 115 identifies the physicalsystem resources available in Host B 110, including information relatedto the system configuration of Host B 110 and/or information related tolevels of available resources of Host B 110. For example, the migrationadvisor module 115 (and/or one or more data collector componentsthereof) can collect this information from a data repository, such as adatabase, associated or incorporated with one or more of the networkdevices 105, 107, and 110-112.

In step 320, the migration advisor module 115 compares the physicalsystem resources of Host B 110 with the physical system requirements ofthe virtual environment 108. In step 325, the migration advisor module115 determines whether the physical system resources of Host B 110 arecompatible with the physical system requirements of the virtualenvironment 108. For example, the resources and requirements may not becompatible if the virtual environment 108 requires more resources and/ora different resource configuration than Host B 110 has available. If themigration advisor module 115 determines in step 325 that the physicalsystem resources of Host B 110 are compatible with the physical systemrequirements of the virtual environment 108, then the method 300continues to step 330, where the migration of the virtual environment108 from Host A 105 to Host B 110 is performed.

If the migration advisor module 115 determines in step 325 that thephysical system resources of Host B 110 are not compatible with thephysical system requirements of the virtual environment 108, then themethod 300 branches to step 335. In step 335, the migration advisormodule 115 outputs a notification of incompatibility. For example, themigration advisor module 115 can output a visual, tactile, or auditorynotification to an operator of the incompatibility. The notification caninclude information about the incompatibility, such as a reason for theincompatibility. For example, the notification can include an icondepicting a CPU, memory, network interface, disk drive, and/or processorwith an “X” through it, indicating that the CPU, memory, networkinterface, disk drive, and/or processor resources of Host B 110 are notcompatible with the physical system requirements of the virtualenvironment 108. In certain exemplary embodiments, the notification canbe displayed in a browser application or software application windowassociated with the migration advisor module 115 and/or the operator.

In step 340, the migration advisor module 115 corrects theincompatibility by changing parameters of the migration, such as byusing a different target host and/or by changing a configuration of thevirtual environment 108. The migration advisor module 115 may correctthe incompatibility automatically or with at least some assistance fromthe operator. Step 340 is described hereinafter with reference to FIG.4.

In step 345, the migration is completed using the corrected parametersfrom step 340. For example, the migration advisor module 115 or anotherassociated software module (not shown) may perform the migration inaccordance with procedures known to a person of ordinary skill in theart having the benefit of the present disclosure.

FIG. 4, comprising FIGS. 4A and 4B, is a flow chart depicting a method340 for correcting migration incompatibility, in accordance with certainexemplary embodiments, as referred to in step 340 of FIG. 3. Theexemplary method 340 is illustrative and, in alternative embodiments ofthe invention, certain steps can be performed in a different order, inparallel with one another, or omitted entirely, and/or certainadditional steps can be performed without departing from the scope andspirit of the invention. The method 340 is described below withreference to FIGS. 1-4.

In step 405, the migration advisor module 115 determines whether to seekoperator assistance. In certain exemplary embodiments, the migrationadvisor module 115 can make this determination based on one or morerules associated with the operator, the virtual environment 108, themigration advisor module 115, Host A 105, and/or Host B 110. Forexample, a rule can indicate that, for certain virtual environments 108,operator assistance is desired. If the migration advisor module 115determines in step 405 to seek operator assistance, the method 340continues to step 407.

In step 407, the migration advisor module 115 outputs a request for aninstruction on what procedure to use in correcting the migrationincompatibility. For example, the procedure can include using adifferent target host than Host B 110 and/or changing a configuration ofthe virtual environment 108. In certain exemplary embodiments, themigration advisor module 115 can output the request to an operator via abrowser application or software application window associated with themigration advisor module 115 and/or the operator. For example, in step407, the migration advisor module 115 can initiate a wizard applicationthat includes the request.

In step 409, the migration advisor module 115 reads an instructionresponsive to the request of step 407. The instruction includesinformation regarding the procedure to use in correcting the migrationincompatibility. In certain exemplary embodiments, the migration advisormodule 115 may receive the instruction via a browser application orsoftware application window associated with the migration advisor module115 and/or the operator. For example, the migration advisor module 115can receive the instruction from a wizard application that includes oneor more input fields and/or selectable items, such as text boxes, checkboxes, and/or hyperlinks.

In step 411, the migration advisor module 115 determines, based on theinstruction received in step 409, whether to correct the migrationincompatibility by proposing a different target host than Host B 110. Ifso, the method 340 continues to step 413. In step 413, the migrationadvisor module 115 identifies at least one new target host, such as HostC 111, with physical resources sufficient to meet the requirements ofthe virtual environment 108. Each new target host can be any device orsystem configured to support a virtual environment. For example, eachnew target host can be a network device having a configuration similarto one or more of the network devices 105, 107, and 110-112. In certainexemplary embodiments, the migration advisor module 115 can identify thenew target host(s) based on information from a data repository, such asa database, associated or incorporated with one or more of the networkdevices 105, 107, and 110-112, and/or other devices, such as the newtarget host, coupled to the migration advisor module 115 directly or viathe network 104.

In step 415, the migration advisor module 115 outputs a notificationthat identifies the new target host. In certain exemplary embodiments,the migration advisor module 115 can output the notification to theoperator via a browser application or software application windowassociated with the migration advisor module 115 and/or the operator.For example, the migration advisor module 115 can output thenotification in a wizard application that includes information relatedto the new target host(s). In certain exemplary embodiments, the browserapplication, software application window, or wizard application caninclude one or more selectable items and/or input fields associated withthe target host(s).

In step 417, the migration advisor module 115 reads an instructionresponsive to the notification of step 415. The instruction includesinformation identifying a new target host to use to complete migrationof the virtual environment 108. In certain exemplary embodiments, themigration advisor module 115 may receive the instruction via a browserapplication or software application window associated with the migrationadvisor module 115 and/or the operator. For example, the migrationadvisor module 115 can receive the instruction from a wizard applicationthat includes one or more input fields and/or selectable items, such astext boxes, check boxes, and/or hyperlinks.

In step 419, the migration advisor module 115 determines to complete themigration of the virtual environment 108 by migrating the virtualenvironment 108 from Host A 105 to the new target host identified instep 417. The method 340 continues to step 345 of FIG. 3.

If the migration advisor module 115 determines in step 411 not tocorrect the migration incompatibility by proposing a different targethost than Host B 110, the method 340 branches to step 429. In step 429,the migration advisor module 115 determines whether to correct themigration incompatibility by changing a configuration of the virtualenvironment 108. If so, the method 340 continues to step 431.

In step 431, the migration advisor module 115 identifies each componentA-C of the virtual environment 108. For example, the migration advisormodule 115 (and/or one or more data collector components thereof) canidentify the components A-C based on information from a data repository,such as a database, associated or incorporated with one or more of thenetwork devices 105, 107, and 110-112. In step 433, the migrationadvisor module 115 identifies the physical system resources required byeach component A-C of the virtual environment 108. For example, themigration advisor module 115 (and/or one or more data collectorcomponents thereof) can identify the physical system resources requiredby each component A-C based on information from a data repository, suchas a database, associated or incorporated with one or more of thenetwork devices 105, 107, and 110-112.

In step 435, the migration advisor module 115 outputs a request toselect which, if any, of the components A-C may be omitted to allowsuccessful migration. In certain exemplary embodiments, the migrationadvisor module 115 can output the request to the operator via a browserapplication or software application window associated with the migrationadvisor module 115 and/or the operator. For example, the migrationadvisor module 115 can output the request in a wizard application thatincludes information identifying the components A-C, the physical systemresources required by each component A-C, and the relative importance ofeach component to the performance of the virtual environment 108. Incertain exemplary embodiments, the browser application, softwareapplication window, or wizard application can include one or moreselectable items and/or input fields associated with the components A-C.

In step 437, the migration advisor module 115 reads a response to therequest of step 435. The response includes information identifying atleast one component A-C that may be omitted to allow successfulmigration. In certain exemplary embodiments, the migration advisormodule 115 may receive the response via a browser application orsoftware application window associated with the migration advisor module115 and/or the operator. For example, the migration advisor module 115can receive the response from a wizard application that includes one ormore input fields and/or selectable items, such as text boxes, checkboxes, and/or hyperlinks.

In step 439, the migration advisor module 115 determines whether thevirtual environment 108 can run ok without the component(s) A-Cidentified in step 437. For example, the migration advisor module 115can make this determination based on the relative importance of theidentified component(s) A-C to the performance of the virtualenvironment 108. If the migration advisor module 115 determines in step439 that the virtual environment 108 can run ok without the component(s)A-C, the method 340 continues to step 441. In step 441, the migrationadvisor module 115 determines to complete the migration of the virtualenvironment without the component(s) A-C identified in step 437. Themethod 340 continues to step 345 of FIG. 3.

If the migration advisor module 115 determines in step 439 that thevirtual environment 108 cannot run ok without the component(s) A-C, themethod 340 continues to step 443. In step 443, the migration advisormodule 115 sends the virtual environment 108 to another network device112 referred to herein as a “quarantine host” 112. The quarantine host112 includes at least one storage medium configured to store informationregarding the virtual environment 108, such as a copy or link to one ormore components A-C of the virtual environment 108, to allow asubsequent migration request to be successfully completed.Alternatively, the quarantine host 112 can store a log accessible by themigration advisor module 115 and/or other software or hardwarecomponents coupled to the quarantine host 112 directly or via thenetwork 104 to prevent future migration of the virtual environment 108.Then, the method 340 ends.

If the migration advisor module 115 determines in step 429 not tocorrect the migration incompatibility by changing a configuration of thevirtual environment 108, the method 340 branches to step 443 discussedpreviously. Although the method 340 contemplates correcting themigration incompatibility by either performing the migration using adifferent target host or by changing a configuration of the virtualenvironment 108, a person of ordinary skill in the art having thebenefit of the present disclosure will recognize that other approachesmay be used to correct the migration incompatibility. For example, themigration incompatibility may be corrected by both performing themigration using a different target host and changing a configuration ofthe virtual environment 108, in accordance with certain exemplaryembodiments.

If the migration advisor module 115 determines in step 405 not to seekoperator assistance, the method 340 branches to step 421. In step 421,the migration advisor module 115 reads a rule regarding the procedure touse in addressing the incompatibility. In certain exemplary embodiments,the rule may be stored in a storage medium associated with the virtualenvironment 108, the migration advisor module 115, and/or one or more ofthe network devices 105 and 110-112. For example, the rule can indicatewhether to address the incompatibility by using a different target hostthan Host B 110 and/or by changing a configuration of the virtualenvironment 108.

In step 423, the migration advisor module 115 determines, based on therule read in step 421, whether to use a different target host than HostB 110 for the migration. If so, the method 340 continues to step 425. Instep 425, the migration advisor module 115 identifies a new target host,such as Host C 111, with physical resources sufficient to meet therequirements of the virtual environment 108. The new target host can beany device or system configured to support a virtual environment. Forexample, the new target host can be a network device having aconfiguration similar to one or more of the network devices 105, 107,and 110-112. In certain exemplary embodiments, the migration advisormodule 115 can identify the new target host based on information from adata repository, such as a database, associated or incorporated with oneor more of the network devices 105, 107, and 110-112, and/or otherdevices, such as the new target host, coupled to the migration advisormodule 115 directly or via the network 104.

In step 427, the migration advisor module 115 determines to complete themigration of the virtual environment 108 by migrating the virtualenvironment 108 from Host A 105 to the new target host identified instep 425. The method 340 continues to step 345 of FIG. 3.

If the migration advisor module 115 determines in step 423 not tocorrect the migration incompatibility by proposing a different targethost than Host B 110, the method 340 branches to step 445. In step 445,the migration advisor module 115 determines whether to correct themigration incompatibility by changing a configuration of the virtualenvironment 108. If so, the method 340 continues to step 447.

In step 447, the migration advisor module 115 identifies each componentA-C of the virtual environment 108. For example, the migration advisormodule 115 (and/or one or more data collector components thereof) canidentify the components A-C based on information from a data repository,such as a database, associated or incorporated with one or more of thenetwork devices 105, 107, and 110-112. In step 449, the migrationadvisor module 115 identifies the physical system resources required byeach component A-C of the virtual environment 108. For example, themigration advisor module 115 (and/or one or more data collectorcomponents thereof) can identify the physical system resources requiredby each component A-C based on information from a data repository, suchas a database, associated or incorporated with one or more of thenetwork devices 105, 107, and 110-112.

In step 451, the migration advisor module 115 identifies each componentA-C that is not compatible with the physical system resources of Host B1110. For example, the migration advisor module 115 can make thisidentification by comparing the physical system resource requirementsidentified in step 447 with the physical resources available in Host B110, as identified in step 315 of FIG. 3.

The method 340 continues to step 439, in which the migration advisormodule 115 determines whether the virtual environment 108 can run okwithout the component(s) A-C identified in step 451. For example, themigration advisor module 115 can make this determination based on therelative importance of the identified component(s) A-C to theperformance of the virtual environment 108. If the migration advisormodule 115 determines in step 439 that the virtual environment 108 canrun ok without the component(s) A-C, the method 340 continues to step441, as described previously. If the migration advisor module 115determines in step 439 that the virtual environment 108 cannot run okwithout the component(s) A-C, the method 340 branches to step 443, asdescribed previously.

If the module 115 determines in step 445 not to correct the migrationincompatibility by changing a configuration of the virtual environment108, the method 340 branches to step 443 discussed previously. Althoughthe method 340 contemplates correcting the migration incompatibility byeither performing the migration using a different target host or bychanging a configuration of the virtual environment 108, a person ofordinary skill in the art having the benefit of the present disclosurewill recognize that other approaches may be used to correct themigration incompatibility. For example, the migration incompatibilitymay be corrected by both performing the migration using a differenttarget host and changing a configuration of the virtual environment 108,in accordance with certain exemplary embodiments.

Although specific embodiments of the invention have been described abovein detail, the description is merely for purposes of illustration. Itshould be appreciated, therefore, that many aspects of the inventionwere described above by way of example only and are not intended asrequired or essential elements of the invention unless explicitly statedotherwise. Various modifications of, and equivalent steps correspondingto, the disclosed aspects of the exemplary embodiments, in addition tothose described above, can be made by a person of ordinary skill in theart, having the benefit of the present disclosure, without departingfrom the spirit and scope of the invention defined in the followingclaims, the scope of which is to be accorded the broadest interpretationso as to encompass such modifications and equivalent structures.

1. A method for addressing migration incompatibility, comprising thesteps of: receiving information regarding a request to migrate a virtualenvironment (“VE”) from a first host to a second host; determining thatthe VE is incompatible with the second host because available physicalsystem resources of the second host do not meet at least one physicalsystem requirement of the VE; determining whether to seek operatorassistance to address the incompatibility; in response to determiningnot to seek operator assistance: determining, based on at least onerule, whether to address the incompatibility by one of (a) migrating theVE to a host that is not the second host, and (b) reconfiguring the VE,and automatically causing the VE to be migrated from the first host to athird host in response to determining, based on the at least one rule,to address the incompatibility by migrating the VE to a host that is notthe second host, the third host having sufficient physical resources tomeet the at least one physical system requirement of the VE, in responseto determining, based on the at least one rule, to address theincompatibility by reconfiguring the VE automatically reconfiguring theVE by removing at least one unnecessary component from the VE, andcausing the reconfigured VE to be migrated from the first host to thesecond host; and in response to determining to seek operator assistance:outputting at least one request to an operator for an instruction on howto address the incompatibility, reading at least one instructionprovided by the operator in response to the at least one request, andaddressing the incompatibility, based on the at least one instruction,by one of (a) causing the VE to be migrated to a host that is not thesecond host, and (b) causing a reconfigured version of the VE to bemigrated to the second host, a configuration of the reconfigured versionof the VE being based on at least one input from the operator.